A personal diabetes equipment management system can include at least one diabetes treatment device adapted for use with one or more disposable diabetes devices; a remote server system including an inventory database identifying operational diabetes treatment devices and operational disposable diabetes devices in the possession of a user; and a controller in communication with (i) the at least one diabetes treatment device over a first network connection and (ii) the remote server system over a second network connection, the controller adapted to automatically detect use of the at least one diabetes treatment device and determine an operational condition for the diabetes treatment device or the one or more disposable diabetes treatment devices based on information received from the at least one diabetes treatment device over the first network connection, the controller transmitting update information to the remote server system over the second network connection to update the inventory database.
Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A personal diabetes equipment management system, comprising: at least one durable diabetes treatment device, the at least one durable diabetes treatment device being adapted to be used with one or more disposable diabetes treatment devices; a remote server system including an estimated personal inventory database of diabetes supplies for a user, the estimated personal inventory database identifying operational durable diabetes treatment devices and operational disposable diabetes treatment devices in the possession of the user, the remote server system being adapted to: generate a usage model for the user regarding the at least one durable diabetes treatment device and the one or more disposable diabetes treatment devices; maintain and update the estimated personal inventory database for the user; and apply predictive analytics based on current and historical supply usage data for the user, the usage model, and the estimated personal inventory database to maintain and update a list of items to be shipped to the user on a future date, wherein applying the predictive analytics includes drawing an inference of an accuracy of the estimated personal inventory database, and wherein the inference is weighted based on an amount of time that the user views the estimated personal inventory database at a graphical user interface without making changes to the estimated personal inventory database; and a controller in communication with (i) the at least one durable diabetes treatment device over a first network connection and (ii) the remote server system over a second network connection, the controller being adapted to: monitor for and automatically detect, based on at least one wireless communication received from the at least one durable diabetes treatment device over the first network connection, use of the at least one durable diabetes treatment device; monitor for and automatically detect that the user performs a maintenance activity including at least replacing a first disposable diabetes treatment device with a second disposable diabetes treatment device; monitor for and automatically detect an electrical change of the at least one durable diabetes treatment device, including a determination that an impedance value within the at least one durable diabetes treatment device changes more than a threshold amount or falls outside of an approved range; and determine an operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices based, at least in part, on information received from the at least one durable diabetes treatment device over the first network connection, the controller transmitting update information to the remote server system over the second network connection to update the estimated personal inventory database to reflect the number of operational durable diabetes treatment devices and disposable diabetes treatment devices in the possession of the user, wherein the update information is based at least in part on the monitoring for the use of the at least one durable diabetes treatment device, the monitoring for the maintenance activity, the monitoring for the electrical change, and determination of the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices and wherein information on the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices is used to update the estimated personal inventory database to reflect the number of operational durable diabetes treatment devices and disposable diabetes treatment devices in the possession of the user; wherein the personal diabetes equipment management system ensures continuity of diabetes treatment by providing for replacement of the at least one durable diabetes treatment device and the one or more disposable diabetes treatment devices based on the monitoring and the estimated personal inventory database.
A personal diabetes equipment management system monitors and manages diabetes treatment devices to ensure continuous supply of necessary equipment. The system includes durable diabetes treatment devices, such as insulin pumps or glucose monitors, which are used with disposable components like infusion sets or sensor cartridges. A remote server maintains an estimated personal inventory database tracking the user's operational durable and disposable devices. The server generates a usage model, updates the inventory database, and applies predictive analytics to forecast future supply needs. The analytics assess inventory accuracy based on user interaction, such as how long the user views the inventory without making changes. A controller communicates with the durable devices and the server. It detects device usage, maintenance activities (e.g., replacing disposable components), and electrical changes (e.g., impedance shifts indicating wear or failure). The controller determines operational conditions of the devices and updates the server's inventory database accordingly. This ensures timely replacement of devices, preventing treatment disruptions. The system automates supply management, reducing manual tracking and improving diabetes care continuity.
2. The personal diabetes equipment management system of claim 1 , wherein the at least one durable diabetes treatment device is an insulin pump, a continuous glucose monitor, a blood glucose meter, or a smart insulin pen.
A personal diabetes equipment management system is designed to integrate and manage multiple durable diabetes treatment devices, such as insulin pumps, continuous glucose monitors, blood glucose meters, and smart insulin pens. The system provides centralized control and monitoring of these devices to improve diabetes management for users. The system may include a user interface for configuring settings, reviewing data, and receiving alerts related to glucose levels, insulin delivery, and other diabetes-related metrics. By consolidating data from different devices, the system helps users and healthcare providers track trends, optimize treatment plans, and reduce the risk of complications. The system may also support wireless communication between devices, enabling seamless data exchange and automated adjustments to treatment parameters. This integration simplifies diabetes management by reducing the need for manual data logging and improving coordination between different treatment modalities. The system may further include features such as predictive alerts, dose recommendations, and compatibility with mobile applications for remote monitoring and support.
3. The personal diabetes equipment management system of claim 1 , wherein the disposable diabetes treatment devices are selected from the group consisting of cartridges including drugs, disposable insulin pump components, infusion sets, blood glucose meter test strips, and disposable glucose meter sensors for continuous glucose monitors.
The personal diabetes equipment management system is designed to manage and track disposable diabetes treatment devices, addressing the challenge of organizing and monitoring multiple single-use components essential for diabetes care. The system includes a housing with compartments for storing these devices, each compartment equipped with sensors to detect the presence, type, and expiration status of the stored items. The system also features a user interface for displaying information about the stored devices, such as their remaining quantity, expiration dates, and usage history. Additionally, the system may include a communication module to transmit data to external devices, such as smartphones or healthcare providers, for remote monitoring and alerts. The disposable diabetes treatment devices managed by the system include cartridges containing drugs, disposable insulin pump components, infusion sets, blood glucose meter test strips, and disposable glucose meter sensors for continuous glucose monitors. The system ensures proper inventory management, reduces the risk of using expired or incorrect devices, and enhances user convenience by centralizing the storage and tracking of essential diabetes care items.
4. The personal diabetes equipment management system of claim 1 , wherein the controller is a smart phone with (i) a first wireless chipset to wirelessly communicate with the at least one durable diabetes treatment device over the first network connection and (ii) a second wireless chipset to wirelessly communicate with the remote server system over the second network connection and over the internet.
A personal diabetes equipment management system includes a smartphone-based controller that wirelessly connects to at least one durable diabetes treatment device, such as an insulin pump or continuous glucose monitor, using a first wireless chipset over a short-range network like Bluetooth or Wi-Fi. The same smartphone also uses a second wireless chipset to communicate with a remote server system over a different network, such as cellular or Wi-Fi, and the internet. The system enables real-time monitoring, data logging, and remote adjustments of the diabetes treatment device through the smartphone, which acts as an intermediary between the device and the server. The server may provide additional processing, storage, or user access to the diabetes data. This setup allows for seamless integration of diabetes management tools into a user's daily life, improving convenience and data accessibility while ensuring secure communication between the device, smartphone, and server. The system may also support automated alerts, treatment recommendations, and remote troubleshooting.
5. The personal diabetes equipment management system of claim 1 , wherein the controller includes a display that is programmed to output alerts in a graphical user interface presented on the display, the alerts being output to a user of the controller about a personal diabetes supplies inventory condition, wherein at least one of the alerts is based at least in part on the determination of the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices.
A personal diabetes equipment management system monitors and manages diabetes treatment devices, including durable and disposable components. The system addresses the challenge of tracking diabetes supplies and device status to ensure proper treatment adherence and prevent supply shortages. The system includes a controller with a display that outputs alerts in a graphical user interface. These alerts inform the user about the inventory status of personal diabetes supplies, such as insulin, test strips, or other consumables. The alerts are generated based on the operational condition of the durable diabetes treatment devices (e.g., insulin pumps) or the disposable devices (e.g., glucose sensors). For example, the system may notify the user when a supply is running low or when a device requires maintenance. The display provides real-time updates and actionable information to help users manage their diabetes care effectively. The system integrates inventory tracking with device monitoring to streamline diabetes management and reduce the risk of treatment disruptions.
6. The personal diabetes equipment management system of claim 5 , wherein the controller's display is further programmed to display a recommendation to the user identifying the supplies that the user should procure in order to maintain an appropriate personal diabetes supplies inventory.
A personal diabetes equipment management system monitors and manages diabetes-related supplies for a user. The system includes a controller with a display and a communication interface that connects to a database storing information about the user's diabetes supplies. The controller tracks the user's supply inventory, including quantities and expiration dates, and alerts the user when supplies are low or nearing expiration. The system also provides recommendations for procuring additional supplies to maintain an adequate inventory. The display shows real-time updates on supply levels and suggests specific supplies the user should obtain based on current usage patterns and remaining quantities. The system may also integrate with external devices, such as glucose monitors or insulin pumps, to provide a comprehensive overview of the user's diabetes management needs. By automating inventory tracking and providing actionable recommendations, the system helps users ensure they have the necessary supplies to manage their condition effectively.
7. The personal diabetes equipment management system of claim 6 , wherein the controller is further programmed to provide one or more selectable input features in association with the recommendation in the graphical user interface to permit the user to accept the recommendation to have the identified supplies shipped to the person with diabetes.
A personal diabetes equipment management system monitors and manages diabetes-related supplies for a user. The system includes a controller that tracks the user's supply inventory, predicts future supply needs based on usage patterns, and generates recommendations for reordering or shipping supplies. The controller is programmed to display these recommendations in a graphical user interface, allowing the user to interact with them. Specifically, the system provides selectable input features linked to the recommendations, enabling the user to accept the suggestion to have identified supplies shipped directly to them. This automation streamlines supply management, reducing the risk of shortages and ensuring timely access to necessary diabetes care items. The system may also integrate with external databases or healthcare providers to verify supply availability and shipping logistics. By simplifying the reordering process, the system enhances convenience and adherence to diabetes management protocols.
8. The personal diabetes equipment management system of claim 7 , wherein the controller is further programmed to provide one or more graphical elements in the graphical user interface to permit the user to make modifications to a list of the identified supplies and place an order on the controller for a modified list of diabetes supplies.
This invention relates to a personal diabetes equipment management system designed to help users track and manage their diabetes supplies. The system addresses the challenge of monitoring and replenishing diabetes-related supplies, such as insulin, test strips, and other medical devices, to ensure users have adequate inventory and avoid shortages. The system includes a controller with a graphical user interface (GUI) that displays a list of identified diabetes supplies, their quantities, and expiration dates. The controller is programmed to analyze this data to determine when supplies are running low or nearing expiration, then alert the user to take action. The system also allows users to modify the list of supplies, such as adding or removing items, and place orders for new supplies directly through the controller. This ensures timely replenishment and reduces the risk of supply shortages. The system may also integrate with external databases or retailers to streamline the ordering process. By automating supply tracking and ordering, the system helps users maintain proper diabetes management while minimizing manual effort.
9. The personal diabetes equipment management system of claim 1 , wherein the controller is programmed to provide one or more selectable user input features in a graphical user interface to allow a person with diabetes to indicate that one or more diabetes supplies has been used, damaged, or destroyed, and wherein the update information is based at least in part on information collected via the one or more selectable user input features.
A personal diabetes equipment management system is designed to help individuals with diabetes track and manage their diabetes supplies. The system includes a controller that provides a graphical user interface with selectable input features, allowing users to indicate when diabetes supplies have been used, damaged, or destroyed. The system then updates supply tracking information based on the user's input. This helps users monitor their supply levels, ensuring they have adequate materials for diabetes management. The system may also integrate with other diabetes monitoring devices to provide a comprehensive overview of supply usage and health data. By tracking supply status, the system helps prevent shortages and ensures timely replenishment, improving diabetes care and reducing the risk of complications from inadequate supply management. The interface is user-friendly, enabling easy input and real-time updates to supply records.
10. The personal diabetes equipment management system of claim 9 , wherein the controller is programmed to receive and display information regarding reimbursement policies of one or more third-party payers for the person with diabetes, wherein the controller is programmed to display a recommendation to the person with diabetes identifying the supplies that the person with diabetes should procure in order to maintain an appropriate personal diabetes supplies inventory, the recommendation being based in part on the reimbursement policies.
This invention relates to a personal diabetes equipment management system designed to help individuals with diabetes manage their supplies and reimbursement processes. The system includes a controller that interfaces with a database storing information about diabetes supplies, reimbursement policies from third-party payers, and the user's personal diabetes supplies inventory. The controller is programmed to analyze reimbursement policies to determine which supplies the user should procure to maintain an appropriate inventory while optimizing coverage. The system provides recommendations to the user, identifying specific supplies they should obtain based on reimbursement eligibility and inventory needs. This helps users avoid shortages, reduce out-of-pocket costs, and ensure compliance with payer requirements. The system may also track usage patterns, predict future supply needs, and alert users when reimbursement policies change. By integrating reimbursement data with inventory management, the system simplifies the process of maintaining adequate diabetes supplies while maximizing insurance coverage.
11. The personal diabetes equipment management system of claim 10 , wherein the reimbursement policies include a time period for when diabetes supplies can be ordered and reimbursed, a maximum number of a type of diabetes supply that can be reimbursed, reimbursement rates, and a list of reimbursed supplies.
A personal diabetes equipment management system is designed to streamline the administration of diabetes supplies, ensuring compliance with reimbursement policies. The system tracks and manages diabetes-related supplies, such as glucose monitors, insulin pumps, and test strips, while enforcing reimbursement rules. These policies define key parameters, including the permissible timeframe for ordering and reimbursing supplies, the maximum allowable quantity of each supply type that can be reimbursed, the reimbursement rates for different items, and a predefined list of eligible supplies. The system automates the verification process to ensure that orders adhere to these policies, reducing administrative burdens and preventing unauthorized or excessive reimbursements. By integrating these policies directly into the management system, the solution enhances efficiency for both patients and healthcare providers, ensuring proper supply allocation while minimizing compliance errors. The system may also include features for tracking usage, predicting future supply needs, and generating reports for reimbursement claims, further optimizing diabetes care management.
12. The personal diabetes equipment management system of claim 11 , wherein the controller is further programmed to display in a graphical user interface a cost to the person with diabetes for ordering the identified diabetes supplies.
The invention relates to a personal diabetes equipment management system designed to help individuals with diabetes track and manage their medical supplies. The system addresses the challenge of ensuring patients have access to necessary diabetes supplies while minimizing costs and logistical burdens. The system includes a controller that monitors the person's diabetes supplies, such as insulin, glucose test strips, and other related equipment. The controller tracks inventory levels, predicts when supplies will run low, and automatically identifies and orders replacement supplies from a supplier. The system also integrates with a graphical user interface to provide the user with real-time information about their supply status and upcoming orders. A key feature is the ability to display the cost associated with ordering identified diabetes supplies, allowing the user to make informed decisions about their purchases. The system may also include a communication module to facilitate interactions with healthcare providers, suppliers, and insurance companies, ensuring seamless coordination of supply management. By automating supply tracking and ordering, the system reduces the risk of running out of critical diabetes supplies while optimizing costs.
13. The personal diabetes equipment management system of claim 12 , wherein the controller is further programmed to output a list of the identified diabetes supplies with corresponding graphical interface elements to permit the user to alter the list of the identified diabetes supplies, wherein the controller is programmed to dynamically update the displayed cost for the list as the user alters the list in the graphical interface elements.
This invention relates to a personal diabetes equipment management system designed to help users track and manage diabetes-related supplies. The system addresses the challenge of monitoring and optimizing the cost of diabetes supplies, which can be complex and expensive. The system includes a controller that identifies diabetes supplies based on user data, such as prescription information or usage history. The controller generates a list of these supplies and displays them in a graphical interface, allowing the user to modify the list. As the user adjusts the list—such as adding, removing, or changing quantities of supplies—the system dynamically updates the displayed total cost in real time. This feature helps users make informed decisions about their supply needs while managing expenses. The system may also include additional functionalities, such as tracking supply levels, setting reminders for refills, or integrating with insurance or pharmacy databases to ensure accurate cost calculations. The dynamic cost updating feature ensures transparency and helps users optimize their diabetes care budget.
14. The personal diabetes equipment management system of claim 1 , wherein the remote server system is programmed to reorder and facilitate shipment of additional durable diabetes treatment devices, parts, or medication to the person with diabetes, charge the person with diabetes and/or a third-party payer, and update the inventory database in response to each shipment.
This invention relates to a personal diabetes equipment management system designed to automate the tracking, reordering, and delivery of diabetes treatment supplies. The system addresses the challenge of managing diabetes care by ensuring timely replenishment of essential items such as durable treatment devices, parts, or medication, reducing the risk of supply shortages for individuals with diabetes. The system includes a remote server that monitors inventory levels of diabetes-related supplies. When inventory falls below a predefined threshold, the server automatically reorders and facilitates the shipment of additional supplies to the user. The system is also configured to process payments by charging either the person with diabetes or a third-party payer, such as an insurance provider. After each shipment, the inventory database is updated to reflect the new stock levels, ensuring accurate tracking and preventing overstocking or shortages. The system may also include a mobile application or other user interface that allows the person with diabetes to view inventory status, track shipments, and manage payment preferences. The remote server may further integrate with healthcare providers or pharmacies to streamline the ordering process and ensure compliance with medical prescriptions. By automating supply management, the system improves convenience and adherence to diabetes treatment regimens, reducing the burden on patients and caregivers.
15. The personal diabetes equipment management system of claim 14 , wherein the controller is programmed to output in a graphical user interface a query to the person with diabetes to determine if a shipment has arrived.
A personal diabetes equipment management system monitors and manages diabetes-related supplies and equipment. The system addresses the challenge of ensuring timely and accurate tracking of diabetes supplies, such as insulin, glucose monitors, and other medical devices, to prevent shortages or delays in treatment. The system includes a controller that communicates with sensors or user inputs to track inventory levels, expiration dates, and shipment statuses. The controller is programmed to generate alerts or notifications when supplies are running low or when shipments are expected. In this specific implementation, the controller is further configured to display a graphical user interface that prompts the user to confirm whether a shipment of diabetes supplies has arrived. This confirmation helps ensure accurate tracking and reduces the risk of missed or delayed shipments. The system may also integrate with external databases or healthcare providers to automate supply ordering and inventory management. By providing real-time updates and user confirmations, the system improves diabetes care by ensuring continuous access to necessary medical supplies.
16. The personal diabetes equipment management system of claim 14 , wherein the controller is programmed to display package tracking data in a graphical user interface for each shipment of additional durable diabetes treatment devices, parts, or medication.
A personal diabetes equipment management system is designed to track and manage durable diabetes treatment devices, parts, and medication shipments. The system includes a controller that monitors and displays package tracking data for each shipment in a graphical user interface. This allows users to view real-time or historical tracking information, such as shipment status, location, and estimated delivery times. The system ensures that users can efficiently manage their diabetes care supplies by providing clear, up-to-date tracking details. The graphical user interface may include visual elements like maps, timelines, or status indicators to enhance usability. The system may also integrate with external tracking services or databases to retrieve and display the latest shipment information. This feature helps users stay informed about the delivery status of their diabetes treatment supplies, reducing uncertainty and improving supply management. The system may further include alerts or notifications to inform users of shipment updates or delays. By centralizing tracking data in a user-friendly interface, the system simplifies the process of monitoring and managing diabetes care supplies.
17. A method of providing durable diabetes treatment devices and supplies comprising: (a) receiving, at a computer system, a physician written prescription for a diabetes supplies service that includes at least one durable diabetes treatment device; (b) processing, by the computer system, the prescription; (c) in response to processing the prescription, causing, by the computer system, at least one durable diabetes treatment device to be sent to a user, the at least one durable diabetes treatment device being adapted to be used with one or more disposable diabetes treatment devices; (d) tracking, by the computer system and through (i) first communication between the computer system and a controller device over a first network connection and (ii) second communication between the controller device and the at least one durable diabetes treatment device over a second network connection, including that the controller device detects use of the at least one durable diabetes treatment device, detects replacement of a first disposable diabetes treatment device with a second disposable diabetes treatment device, and detects an electrical change of the at least one durable diabetes treatment device, including a determination that an impedance value within the at least one durable diabetes treatment device changes more than a threshold amount or falls outside of an approved range, wherein the controller device receives at least one wireless communication from the at least one durable diabetes treatment device over the first network connection, use of the at least one durable diabetes treatment device indicated by the at least one wireless communication from the at least one durable diabetes treatment device over the first network connection to determine an operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices; (e) maintaining and updating an estimated personal inventory database for the user based on the first and second communications, including drawing an inference of an accuracy of the estimated personal inventory database, wherein the inference is weighted based on an amount of time that the user views the estimated personal inventory database at a graphical user interface without making changes to the estimated personal inventory database; and (f) generating and transmitting, by the computer system and to a client device associated with the user, information about a personal diabetes inventory condition for durable diabetes treatment devices and/or disposable diabetes treatment devices delivered to the person with diabetes, wherein the information about the personal diabetes inventory condition is based at least in part on the determination of the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices and information on the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices is used to update the estimated personal inventory database to reflect the number of operational durable diabetes treatment devices and disposable diabetes treatment devices in the possession of the user.
This invention relates to a system for managing diabetes treatment devices and supplies, addressing the challenge of tracking and maintaining durable and disposable diabetes treatment devices. The system receives a physician's prescription for diabetes supplies, including durable devices like insulin pumps or glucose monitors, and processes it to send the devices to the user. The system tracks device usage and condition through a controller device that communicates with the durable devices over a network. The controller detects device usage, replacement of disposable components, and electrical changes, such as impedance shifts exceeding a threshold or falling outside an approved range. The system maintains an estimated personal inventory database, updating it based on device communications and user interactions, such as viewing the inventory without making changes, which influences the accuracy inference. The system then generates and transmits inventory condition information to the user's client device, reflecting the operational status of durable and disposable devices. This ensures users have accurate, up-to-date information on their diabetes treatment supplies.
18. The method of claim 17 , further comprising causing, by the computer system, additional diabetes supplies to be delivered to the user, wherein the additional delivery of diabetes supplies is within the scope of the physician written prescription, and wherein the additional diabetes supplies are identified based at least in part on the determination of the operational condition for the at least one durable diabetes treatment device or the one or more disposable diabetes treatment devices.
This invention relates to a system for managing diabetes treatment devices and supplies, addressing the challenge of ensuring patients have the necessary supplies and functional equipment for effective diabetes management. The system monitors the operational condition of durable diabetes treatment devices, such as insulin pumps, and disposable devices like glucose sensors or infusion sets. By analyzing data from these devices, the system determines whether they are functioning properly or require replacement. If a device is found to be malfunctioning or nearing the end of its useful life, the system automatically triggers the delivery of additional diabetes supplies to the user. These supplies are selected based on the specific needs identified by the device monitoring, ensuring compliance with the physician's prescription. The system integrates with a computer system that processes device data, assesses operational status, and coordinates supply replenishment, streamlining diabetes care and reducing the risk of treatment interruptions. The invention improves patient adherence to treatment regimens by proactively addressing supply and device maintenance needs.
19. The method of claim 17 , further comprising submitting, by the computer system, the prescription for renewal to a physician prior to delivering the additional diabetes supplies to the user.
This invention relates to automated systems for managing and renewing diabetes supplies for users. The problem addressed is the need for efficient, timely, and compliant delivery of diabetes supplies, such as insulin, glucose monitors, and related devices, while ensuring proper medical oversight. The system automates the process of tracking supply usage, predicting when a user will need a refill, and facilitating the renewal of prescriptions without manual intervention. It integrates with electronic health records (EHRs) and pharmacy systems to verify prescription validity, check insurance coverage, and ensure compliance with regulatory requirements. The system also monitors user adherence to treatment plans and alerts healthcare providers if deviations are detected. Additionally, the system may include features for user notifications, supply tracking, and automated reordering based on consumption patterns. A key aspect is the ability to submit prescription renewal requests to a physician before delivering additional supplies, ensuring that the user receives necessary medications or devices without delays while maintaining medical oversight. The system aims to improve patient outcomes by ensuring continuous access to diabetes management supplies while reducing administrative burdens on healthcare providers.
20. The method of claim 17 , wherein transmitting the information to the client device causes the client device to display the personal diabetes inventory on a user interface of the client device.
Medical device data management. This invention addresses the problem of presenting a user's personal diabetes inventory to them on a client device. Information relating to a user's personal diabetes inventory is transmitted. This transmission is directed to a client device. Upon receiving the transmitted information, the client device displays the personal diabetes inventory on its user interface.
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July 11, 2017
February 1, 2022
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